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https://github.com/Unidata/netcdf-c.git
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fb40a72b45
re: Issue https://github.com/Unidata/netcdf-c/issues/2685 re: PR https://github.com/Unidata/netcdf-c/pull/2179 As noted in PR https://github.com/Unidata/netcdf-c/pull/2179, the old code did not allow for reclaiming instances of types, nor for properly copying them. That PR provided new functions capable of reclaiming/copying instances of arbitrary types. However, as noted by Issue https://github.com/Unidata/netcdf-c/issues/2685, using these most general functions resulted in a significant performance degradation, even for common cases. This PR attempts to mitigate the cost of using the general reclaim/copy functions in two ways. First, the previous functions operating at the top level by using ncid and typeid arguments. These functions were augmented with equivalent versions that used the netcdf-c library internal data structures to allow direct access to needed information. These new functions are used internally to the library. The second mitigation involves optimizing the internal functions by providing early tests for common cases. This avoids unnecessary recursive function calls. The overall result is a significant improvement in speed by a factor of roughly twenty -- your mileage may vary. These optimized functions are still not as fast as the original (more limited) functions, but they are getting close. Additional optimizations are possible. But the cost is a significant "uglification" of the code that I deemed a step too far, at least for now. ## Misc. Changes 1. Added a test case to check the proper reclamation/copy of complex types. 2. Found and fixed some places where nc_reclaim/copy should have been used. 3. Replaced, in the netcdf-c library, (almost all) occurrences of nc_reclaim_copy with calls to NC_reclaim/copy. This plus the optimizations is the primary speed-up mechanism. 4. In DAP4, the metadata is held in a substrate in-memory file; this required some changes so that the reclaim/copy code accessed that substrate dispatcher rather than the DAP4 dispatcher. 5. Re-factored and isolated the code that computes if a type is (transitively) variable-sized or not. 6. Clean up the reclamation code in ncgen; adding the use of nc_reclaim exposed some memory problems.
555 lines
16 KiB
C
555 lines
16 KiB
C
/*
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Copyright (c) 1998-2018 University Corporation for Atmospheric Research/Unidata
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See COPYRIGHT for license information.
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*/
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/*
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This file contains various instance operations that operate
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on a deep level rather than the shallow level of e.g. nc_free_vlen_t.
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Currently two operations are defined:
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1. reclaim a vector of instances
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2. copy a vector of instances
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*/
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#include "config.h"
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#include <stdlib.h>
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#include <string.h>
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#include <assert.h>
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#include "netcdf.h"
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#include "netcdf_aux.h"
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#include "nc4internal.h"
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#include "nc4dispatch.h"
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#include "ncoffsets.h"
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#include "ncbytes.h"
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#undef REPORT
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#undef DEBUG
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/* DAP2 and DAP4 currently defer most of their API to a substrate NC
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that hold the true metadata. So there is a level of indirection
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necessary in order to get to the right NC* instance.
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*/
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#if defined(ENABLE_DAP4) || defined(ENABLE_DAP2)
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EXTERNL NC* NCD4_get_substrate(NC* nc);
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EXTERNL NC* NCD2_get_substrate(NC* nc);
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static NC*
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DAPSUBSTRATE(NC* nc)
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{
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if(USED2INFO(nc) != 0)
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return NCD2_get_substrate(nc);
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else if(USED4INFO(nc) != 0)
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return NCD4_get_substrate(nc);
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return nc;
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}
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#else
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#define DAPSUBSTRATE(nc) (nc)
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#endif
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/* It is helpful to have a structure that contains memory and an offset */
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typedef struct Position{char* memory; ptrdiff_t offset;} Position;
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/* Forward */
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#ifdef USE_NETCDF4
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static int dump_datar(int ncid, nc_type xtype, Position*, NCbytes* buf);
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static int dump_compound(int ncid, nc_type xtype, size_t size, size_t nfields, Position* offset, NCbytes* buf);
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static int dump_vlen(int ncid, nc_type xtype, nc_type basetype, Position* offset, NCbytes* buf);
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static int dump_enum(int ncid, nc_type xtype, nc_type basetype, Position* offset, NCbytes* buf);
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static int dump_opaque(int ncid, nc_type xtype, size_t size, Position* offset, NCbytes* buf);
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#endif
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/**
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\ingroup user_types
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Reclaim an array of instances of an arbitrary type.
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This function should be used when the other simpler functions
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such as *nc_free_vlens* or *nc_free_string* cannot be used.
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This recursively walks the top-level instances to reclaim
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any nested data such as vlen or strings or such.
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Assumes it is passed a pointer to count instances of xtype.
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Reclaims any nested data.
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WARNING: This needs access to the type metadata of the file, so
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a valid ncid and typeid must be available, which means the file
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must not have been closed or aborted.
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WARNING: DOES NOT RECLAIM THE TOP-LEVEL MEMORY (see the
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nc_reclaim_data_all function). The reason is that we do not
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know how it was allocated (e.g. static vs dynamic); only the
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caller can know that. But note that it assumes all memory
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blocks other than the top were dynamically allocated, so they
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will be free'd.
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Should work for any netcdf format.
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@param ncid root id
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@param xtype type id
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@param memory ptr to top-level memory to reclaim
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@param count number of instances of the type in memory block
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@return error code
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*/
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int
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nc_reclaim_data(int ncid, nc_type xtype, void* memory, size_t count)
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{
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int stat = NC_NOERR;
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NC* nc = NULL;
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if(ncid < 0 || xtype <= 0)
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{stat = NC_EINVAL; goto done;}
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if(memory == NULL && count > 0)
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{stat = NC_EINVAL; goto done;}
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if(memory == NULL || count == 0)
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goto done; /* ok, do nothing */
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#ifdef REPORT
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fprintf(stderr,">>> reclaim: memory=%p count=%lu ncid=%d xtype=%d\n",memory,(unsigned long)count,ncid,xtype);
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#endif
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if((stat = NC_check_id(ncid,&nc))) goto done;
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nc = DAPSUBSTRATE(nc);
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/* Call internal version */
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stat = NC_reclaim_data(nc,xtype,memory,count);
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#if 0
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#ifdef USE_NETCDF4
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NC_FILE_INFO_T* file = NULL;
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/* Find info for this file and group and var, and set pointer to each. */
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if ((stat = nc4_find_grp_h5(ncid, NULL, &file))) return stat;
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/* Call internal version */
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stat = NC_reclaim_data(file,xtype,memory,count);
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#endif
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#endif
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done:
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return stat;
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}
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/**
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\ingroup user_types
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Reclaim the memory allocated for an array of instances of an arbitrary type.
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This recursively walks the top-level instances to reclaim any nested data such as vlen or strings or such.
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This function differs from *nc_reclaim_data* in that it also reclaims the top-level memory.
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Assumes it is passed a count and a pointer to the top-level memory.
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Should work for any netcdf format.
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@param ncid root id
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@param xtype type id
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@param memory ptr to top-level memory to reclaim
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@param count number of instances of the type in memory block
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@return error code
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*/
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int
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nc_reclaim_data_all(int ncid, nc_type xtypeid, void* memory, size_t count)
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{
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int stat = NC_NOERR;
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stat = nc_reclaim_data(ncid,xtypeid,memory,count);
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if(stat == NC_NOERR && memory != NULL)
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free(memory);
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return stat;
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}
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/**************************************************/
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/**
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\ingroup user_types
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Copy an array of instances of an arbitrary type. This recursively walks
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the top-level instances to copy any nested data such as vlen or strings or such.
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Assumes it is passed a pointer to count instances of xtype and a
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space into which to copy the instance. Copys any nested data.
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WARNING: This needs access to the type metadata of the file, so
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a valid ncid and typeid must be available, which means the file
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must not have been closed or aborted.
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WARNING: DOES NOT ALLOCATE THE TOP-LEVEL MEMORY (see the
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nc_copy_data_all function). Note that all memory blocks other
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than the top are dynamically allocated.
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Should work for any netcdf format.
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@param ncid root id
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@param xtype type id
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@param memory ptr to top-level memory to copy
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@param count number of instances of the type in memory block
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@param copy top-level space into which to copy the instance
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@return error code
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*/
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int
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nc_copy_data(int ncid, nc_type xtype, const void* memory, size_t count, void* copy)
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{
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int stat = NC_NOERR;
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NC* nc = NULL;
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if(ncid < 0 || xtype <= 0)
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{stat = NC_EINVAL; goto done;}
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if(memory == NULL && count > 0)
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{stat = NC_EINVAL; goto done;}
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if(copy == NULL && count > 0)
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{stat = NC_EINVAL; goto done;}
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if(memory == NULL || count == 0)
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goto done; /* ok, do nothing */
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#ifdef REPORT
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fprintf(stderr,">>> copy : copy =%p memory=%p count=%lu ncid=%d xtype=%d\n",copy,memory,(unsigned long)count,ncid,xtype);
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#endif
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if((stat = NC_check_id(ncid,&nc))) goto done;
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nc = DAPSUBSTRATE(nc);
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/* Call internal version */
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stat = NC_copy_data(nc,xtype,memory,count,copy);
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done:
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return stat;
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}
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/**
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\ingroup user_types
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Copy an array of instances of an arbitrary type. This recursively walks
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the top-level instances to copy any nested data such as vlen or strings or such.
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This function differs from *nc_copy_data* in that it also allocates
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the top-level memory.
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Assumes it is passed a pointer to count instances of xtype and a pointer
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into which the top-level allocated space is stored.
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@param ncid root id
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@param xtype type id
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@param memory ptr to top-level memory to copy
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@param count number of instances of the type in memory block
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@param copyp pointer into which the allocated top-level space is stored.
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@return error code
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*/
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int
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nc_copy_data_all(int ncid, nc_type xtype, const void* memory, size_t count, void** copyp)
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{
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int stat = NC_NOERR;
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size_t xsize = 0;
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void* copy = NULL;
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/* Get type size */
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if((stat = ncaux_inq_any_type(ncid,xtype,NULL,&xsize,NULL,NULL,NULL))) goto done;
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/* allocate the top-level */
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if(count > 0) {
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if((copy = calloc(xsize,count))==NULL)
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{stat = NC_ENOMEM; goto done;}
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}
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stat = nc_copy_data(ncid,xtype,memory,count,copy);
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if(copyp) {*copyp = copy; copy = NULL;}
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done:
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if(copy)
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stat = nc_reclaim_data_all(ncid,xtype,copy,count);
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return stat;
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}
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/**************************************************/
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/* Alignment functions */
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#ifdef USE_NETCDF4
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/**
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@param ncid - only needed for a compound type
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@param xtype - type for which alignment is requested
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@return 0 if not found
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*/
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int
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NC_type_alignment(int ncid, nc_type xtype, size_t* alignp)
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{
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int stat = NC_NOERR;
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NC* nc = NULL;
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if((stat = NC_check_id(ncid,&nc))) goto done;
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nc = DAPSUBSTRATE(nc);
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if(USENC3INFO(nc)) goto done;
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/* Call internal version */
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stat = NC_type_alignment_internal((NC_FILE_INFO_T*)nc->dispatchdata,xtype,NULL,alignp);
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done:
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return stat;
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}
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#endif
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/**************************************************/
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/* Dump an instance into a bytebuffer
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@param ncid root id
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@param xtype type id
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@param memory ptr to top-level memory to dump
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@param count number of instances of the type in memory block
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@return error code
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*/
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int
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nc_dump_data(int ncid, nc_type xtype, const void* memory, size_t count, char** bufp)
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{
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int stat = NC_NOERR;
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size_t i;
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Position offset;
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NCbytes* buf = ncbytesnew();
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if(ncid < 0 || xtype <= 0)
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{stat = NC_EINVAL; goto done;}
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if(memory == NULL && count > 0)
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{stat = NC_EINVAL; goto done;}
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if(memory == NULL || count == 0)
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goto done; /* ok, do nothing */
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#ifdef REPORT
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fprintf(stderr,">>> dump: memory=%p count=%lu ncid=%d xtype=%d\n",memory,(unsigned long)count,ncid,xtype);
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#endif
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offset.memory = (char*)memory; /* use char* so we can do pointer arithmetic */
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offset.offset = 0;
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for(i=0;i<count;i++) {
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if(i > 0) ncbytescat(buf," ");
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if((stat=dump_datar(ncid,xtype,&offset,buf))) /* dump one instance */
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break;
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}
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if(bufp) *bufp = ncbytesextract(buf);
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done:
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ncbytesfree(buf);
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return stat;
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}
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int
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nc_print_data(int ncid, nc_type xtype, const void* memory, size_t count)
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{
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char* s = NULL;
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int stat = NC_NOERR;
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if((stat=nc_dump_data(ncid,xtype,memory,count,&s))) return stat;
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fprintf(stderr,"%s\n",s);
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nullfree(s)
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return stat;
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}
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/* Recursive type walker: dump a single instance */
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static int
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dump_datar(int ncid, nc_type xtype, Position* offset, NCbytes* buf)
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{
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int stat = NC_NOERR;
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size_t xsize;
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nc_type basetype;
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size_t nfields;
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int klass;
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char s[128];
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/* Get relevant type info */
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if((stat = ncaux_inq_any_type(ncid,xtype,NULL,&xsize,&basetype,&nfields,&klass))) goto done;
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switch (xtype) {
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case NC_CHAR:
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snprintf(s,sizeof(s),"'%c'",*(char*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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case NC_BYTE:
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snprintf(s,sizeof(s),"%d",*(char*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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case NC_UBYTE:
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snprintf(s,sizeof(s),"%u",*(unsigned char*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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case NC_SHORT:
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snprintf(s,sizeof(s),"%d",*(short*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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case NC_USHORT:
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snprintf(s,sizeof(s),"%d",*(unsigned short*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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case NC_INT:
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snprintf(s,sizeof(s),"%d",*(int*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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case NC_UINT:
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snprintf(s,sizeof(s),"%d",*(unsigned int*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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case NC_FLOAT:
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snprintf(s,sizeof(s),"%f",*(float*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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case NC_INT64:
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snprintf(s,sizeof(s),"%lld",*(long long*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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case NC_UINT64:
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snprintf(s,sizeof(s),"%llu",*(unsigned long long*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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case NC_DOUBLE:
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snprintf(s,sizeof(s),"%lf",*(double*)(offset->memory+offset->offset));
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ncbytescat(buf,s);
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break;
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#ifdef USE_NETCDF4
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case NC_STRING: {
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char* s = *(char**)(offset->memory + offset->offset);
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ncbytescat(buf,"\"");
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ncbytescat(buf,s);
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ncbytescat(buf,"\"");
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} break;
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#endif
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default:
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#ifdef USE_NETCDF4
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/* dump a user type */
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switch (klass) {
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case NC_OPAQUE: stat = dump_opaque(ncid,xtype,xsize,offset,buf); break;
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case NC_ENUM: stat = dump_enum(ncid,xtype,basetype,offset,buf); break;
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case NC_COMPOUND: stat = dump_compound(ncid,xtype,xsize,nfields,offset,buf); break;
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case NC_VLEN: stat = dump_vlen(ncid,xtype,basetype,offset,buf); break;
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default: stat = NC_EBADTYPE; break;
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}
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#else
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stat = NC_EBADTYPE;
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#endif
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break;
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}
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if(xtype <= NC_MAX_ATOMIC_TYPE)
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offset->offset += xsize;
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done:
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return stat;
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}
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#ifdef USE_NETCDF4
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static int
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dump_vlen(int ncid, nc_type xtype, nc_type basetype, Position* offset, NCbytes* buf)
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{
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int stat = NC_NOERR;
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size_t i;
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nc_vlen_t* vl = (nc_vlen_t*)(offset->memory+offset->offset);
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char s[128];
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if(vl->len > 0 && vl->p == NULL)
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{stat = NC_EINVAL; goto done;}
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snprintf(s,sizeof(s),"{len=%u,p=(",(unsigned)vl->len);
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ncbytescat(buf,s);
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/* dump each entry in the vlen list */
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if(vl->len > 0) {
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Position voffset;
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size_t alignment = 0;
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if((stat = NC_type_alignment(ncid,basetype,&alignment))) goto done;;
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voffset.memory = vl->p;
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voffset.offset = 0;
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for(i=0;i<vl->len;i++) {
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if(i > 0) ncbytescat(buf," ");
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voffset.offset = NC_read_align(voffset.offset,alignment);
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if((stat = dump_datar(ncid,basetype,&voffset,buf))) goto done;
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}
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}
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ncbytescat(buf,")}");
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offset->offset += sizeof(nc_vlen_t);
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done:
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return stat;
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}
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static int
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dump_enum(int ncid, nc_type xtype, nc_type basetype, Position* offset, NCbytes* buf)
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{
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int stat = NC_NOERR;
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/* basically same as an instance of the enum's integer basetype */
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stat = dump_datar(ncid,basetype,offset,buf);
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return stat;
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}
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static int
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|
dump_opaque(int ncid, nc_type xtype, size_t size, Position* offset, NCbytes* buf)
|
|
{
|
|
size_t i;
|
|
char sx[16];
|
|
/* basically a fixed size sequence of bytes */
|
|
ncbytescat(buf,"|");
|
|
for(i=0;i<size;i++) {
|
|
unsigned char x = *(offset->memory+offset->offset+i);
|
|
snprintf(sx,sizeof(sx),"%2x",x);
|
|
ncbytescat(buf,sx);
|
|
}
|
|
ncbytescat(buf,"|");
|
|
offset->offset += size;
|
|
return NC_NOERR;
|
|
}
|
|
|
|
static int
|
|
dump_compound(int ncid, nc_type xtype, size_t size, size_t nfields, Position* offset, NCbytes* buf)
|
|
{
|
|
int stat = NC_NOERR;
|
|
size_t fid, i, arraycount;
|
|
ptrdiff_t saveoffset;
|
|
int ndims;
|
|
int dimsizes[NC_MAX_VAR_DIMS];
|
|
|
|
saveoffset = offset->offset;
|
|
|
|
ncbytescat(buf,"<");
|
|
|
|
/* Get info about each field in turn and dump it */
|
|
for(fid=0;fid<nfields;fid++) {
|
|
size_t fieldalignment;
|
|
nc_type fieldtype;
|
|
char name[NC_MAX_NAME];
|
|
char sd[128];
|
|
|
|
/* Get all relevant info about the field */
|
|
if((stat = nc_inq_compound_field(ncid,xtype,fid,name,&fieldalignment,&fieldtype,&ndims,dimsizes))) goto done;
|
|
if(fid > 0) ncbytescat(buf,";");
|
|
ncbytescat(buf,name);
|
|
ncbytescat(buf,"(");
|
|
if(ndims > 0) {
|
|
int j;
|
|
for(j=0;j<ndims;j++) {
|
|
snprintf(sd,sizeof(sd),"%s%d",(j==0?"":","),(int)dimsizes[j]);
|
|
ncbytescat(buf,sd);
|
|
}
|
|
}
|
|
ncbytescat(buf,")");
|
|
if(ndims == 0) {ndims=1; dimsizes[0]=1;} /* fake the scalar case */
|
|
/* Align to this field */
|
|
offset->offset = saveoffset + fieldalignment;
|
|
/* compute the total number of elements in the field array */
|
|
arraycount = 1;
|
|
for(i=0;i<ndims;i++) arraycount *= dimsizes[i];
|
|
for(i=0;i<arraycount;i++) {
|
|
if(i > 0) ncbytescat(buf," ");
|
|
if((stat = dump_datar(ncid, fieldtype, offset,buf))) goto done;
|
|
}
|
|
}
|
|
ncbytescat(buf,">");
|
|
/* Return to beginning of the compound and move |compound| */
|
|
offset->offset = saveoffset;
|
|
offset->offset += size;
|
|
|
|
done:
|
|
return stat;
|
|
}
|
|
#endif
|
|
|
|
/* Extended version that can handle atomic typeids */
|
|
int
|
|
NC_inq_any_type(int ncid, nc_type typeid, char *name, size_t *size,
|
|
nc_type *basetypep, size_t *nfieldsp, int *classp)
|
|
{
|
|
int stat = NC_NOERR;
|
|
#ifdef USE_NETCDF4
|
|
if(typeid >= NC_FIRSTUSERTYPEID) {
|
|
stat = nc_inq_user_type(ncid,typeid,name,size,basetypep,nfieldsp,classp);
|
|
} else
|
|
#endif
|
|
if(typeid > NC_NAT && typeid <= NC_MAX_ATOMIC_TYPE) {
|
|
if(basetypep) *basetypep = NC_NAT;
|
|
if(nfieldsp) *nfieldsp = 0;
|
|
if(classp) *classp = typeid;
|
|
stat = NC4_inq_atomic_type(typeid,name,size);
|
|
} else
|
|
stat = NC_EBADTYPE;
|
|
return stat;
|
|
}
|